Technical Documentation
PoE and EX Series Switches Overview
Power over Ethernet (PoE) permits electric power, along with data, to be passed over a copper Ethernet LAN cable. Powered devices, such as voice over IP (VoIP) telephones, wireless access points, video cameras, and point-of-sale devices, that support PoE can receive power safely from the same access ports that are used to connect personal computers to the network.
This topic describes PoE on Juniper Networks EX Series Ethernet Switches.
It covers:
PoE, PoE+, and Enhanced PoE
PoE was first defined in the IEEE 802.3af standard. In this standard, the amount of power that can be supplied to a powered device is limited to 15.4 W. A later standard, IEEE 802.3at, defined PoE+, which increases the amount of power to 30 W. The PoE+ standard provides support for legacy PoE devices—an IEEE 802.3af powered device can operate normally when connected to IEEE 802.3at (PoE+) power sourcing equipment.
Beginning at Juniper Networks Junos operating system (Junos OS) Release 11.1, Juniper Networks provides enhanced PoE on EX3200 and EX4200 switches. Enhanced PoE is a Juniper Networks extension to the IEEE 802.3af standard that allows up to 18.6 W per PoE port.
Table 1 lists EX Series switches and line cards and the version of PoE they support.
Table 1: PoE Version Support
Switch or Line Card | PoE Version |
|---|---|
EX2200 switch | PoE+ (IEEE 802.3at) |
EX3200 switch | Enhanced PoE |
EX3300 switch | PoE+ (IEEE 802.3at) |
EX4200 switch—P and T models (EX4200-24P, EX4200-24T, EX4200-48P, EX4200-48T) | Enhanced PoE |
EX4200 switch—PX models (EX4200-24PX and EX4200-48PX) | PoE+ (IEEE 802.3at) |
EX6200-48P (48-port PoE+) line card | PoE+ (IEEE 802.3at) |
EX8200-2XS-40P (40-port PoE+ with 4-port SFP and 2-port SFP+) line card EX8200-48PL (2-port SFP+ and 48-port PoE+ 20 Gbps) line card | PoE+ (IEEE 802.3at)—Ports 0 through 11 PoE (IEEE 802.3af)—Remaining PoE ports |
 | Note: This topic and its related topics use the term PoE as a generic term to refer to PoE, PoE+, and enhanced PoE. |
PoE Power Management
A switch or line card that supports PoE has a PoE controller that keeps track of the PoE power consumption on the switch and allocates power to the PoE ports. The following factors determine how the PoE controller allocates power to the PoE ports:
PoE Power Budget
The PoE power budget is the total amount of power that the PoE controller has available to allocate to its PoE ports. The PoE controller cannot exceed its PoE power budget and does not allocate power to a PoE port if the allocation would exceed the PoE power budget.
How the PoE power budget is determined depends on the switch model:
- PoE Power Budget on EX2200, EX3200, EX3300, and EX4200 Switches
- PoE Power Budget on EX6200 and EX8200 Switches
PoE Power Budget on EX2200, EX3200, EX3300, and EX4200 Switches
The PoE power budget on EX2200, EX3200, EX3300, and EX4200 switches varies according to switch model and the capacities of power supplies installed. For example:
- A 24-port or 48-port EX2200 switch, with its fixed power supply of 550 W, has a set PoE budget of 405 W.
- A 12-port EX2200-C switch, with its fixed power supply of 180 W, has a set PoE budget of 100 W.
- An EX3200 switch with a 320 W power supply installed has a PoE power budget of 130 W, while an EX3200 switch with a 600 W power supply installed has a PoE power budget of 410 W.
Use the show poe controller command to display a switch’s PoE power budget.
If your switch supports power supplies of different capacities, keep the following points in mind:
- If you change your existing power supply to a lower-capacity power supply, the PoE power budget might no longer be sufficient to power all the PoE ports on the switch.
- If your switch supports redundant power supplies and you have installed power supplies of different capacities, the PoE power budget is based on the wattage of the lower-capacity power supply.
- You cannot increase the number of PoE-capable ports on a switch by installing a larger power supply.
PoE Power Budget on EX6200 and EX8200 Switches
For EX6200 and EX8200 switches, each line card that supports PoE has its own PoE controller and PoE power budget. The PoE power budget is allocated to a line card by the switch power management. Because EX6200 and EX8200 switches can differ in the number and capacity of power supplies installed and in the number and types of line cards installed, the amount of power available for PoE power can vary for different switches of the same model.
Power management allocates PoE power to line cards that support PoE only after it has allocated base power to and powered on all line cards. It then allocates the remaining power to the PoE power budgets of PoE line cards in order of line card power priority. (In a default configuration, power priority is determined by line card slot number, with slot 0 having the highest priority.) If the remaining power is insufficient to provide PoE power to all PoE line cards, a low priority line card might receive no PoE power or partial PoE power.
By default, power management allocates enough PoE power to a line card to power all PoE ports at their maximum supported power. If the connected powered devices require less power than that, you can configure a smaller PoE power budget for the line card. For example, power management normally allocates 915 W of PoE power to a 48-port PoE+ 20 Gbps (EX8200-48PL) line card. If the connected powered devices consume no more than a total of 250 W, you can set the PoE power budget for the line card to 250 W. Doing so frees up 665 W, which then can be used to fulfill the PoE power needs of lower-priority line cards.
Power management adjusts PoE power allocations as power availability and demand in a switch changes. As a general rule, power management allocates power to powering line cards before it allocates PoE power. For example, if you add a line card and there is insufficient power available to power it on, power management reduces the PoE power it provides to line cards, starting with the lowest priority line card, until it frees up enough power to power on the new line card. When power management reduces the PoE power budget for a line card because of insufficient power, it logs a message in the system log.
Note that the actual power consumed by the powered devices does not affect power management’s power allocation for a line card. If you have set the PoE budget for a line card to 500 W, power management allocates 500 W even if the powered devices are consuming less power than that. Similarly, the PoE power budget is not increased if you add additional powered devices: if the powered devices require more than the 500 W PoE budget you have configured, lower priority devices will not receive power.
You can display the switch power budget maintained by power management, including its PoE power allocations, by using the show chassis power-budget-statistics command. You can also display the PoE power budget for each line card in a switch by using the show poe controller command.
For more information on how power management allocates power, including PoE power, see Understanding Power Management on EX Series Switches.
Power Management Mode
EX Series switches support two power management modes: class (the default) and static. The mode you configure for your switch determines how the maximum power for a PoE interface is derived and how power is allocated to the PoE interfaces:
- Class mode—In this mode, the maximum power for an
interface is determined by the class of connected powered device. Table 2 lists the classes of powered devices
and associated power levels.
Table 2: Class of Powered Device and Power Levels
Standard
Class
Maximum Power Delivered by PoE Port
Power Range of Powered Device
IEEE 802.3af (PoE) and IEEE 802.3at (PoE+)
0
15.4 W
0.44 through 12.95 W
1
4.0 W
0.44 through 3.84 W
2
7.0 W
3.84 through 6.49 W
3
15.4 W
6.49 through 12.95 W
IEEE 802.3at (PoE+)
4
30.0 W
12.95 through 25.5 W
To account for line loss, the power range of the powered device is less than the maximum power delivered at the PoE port for each class. Line loss is influenced by cable length, quality, and other factors and is typically less than 16 percent.
The powered device communicates to the PoE controller which class it belongs to when it is connected. The PoE controller then allocates to the interface the maximum power required by the class (see Table 2). It does not allocate power to an interface until a powered device is connected. Class 0 is the default class for powered devices that do not provide class information. Class 4 powered devices are supported only by PoE ports that support IEEE 802.3at (PoE+).
- Static mode—In this mode, you specify the maximum
power for each PoE interface. The PoE controller then allocates this
amount of power to the interface from its total budget. For example,
if you specify a maximum value of 8.0 W for ge-0/0/3, the
PoE controller allocates 8.0 W out of its total power budget for the
interface. This amount is allocated to the interface whether or not
a powered device is connected to the interface or whether the connected
powered device uses less power than 8.0 W.
Because of line loss, the power received by the powered device can be less than the power available at the PoE port. Table 3 shows the maximum power available at a PoE port and the resulting power guaranteed to the powered device.
Table 3: Maximum Power Per Port in Static Mode
Switch or Line Card
Maximum Power Delivered by PoE Port
Guaranteed Power to Powered Devices
EX2200 switches, EX3300 switches, and EX4200 PX model switches
30 W
25.5 W
EX3200 switches and EX4200 P and T model switches running Junos OS Release 10.4 or earlier
15.4 W
12.95 W
EX3200 switches and EX4200 P and T model switches running Junos OS Release 11.1 or later
18.6 W
Note: Switches that are upgraded to Junos OS Release 11.1 from a previous release require an upgrade of the PoE controller software to obtain 18.6 W.
15.64 W
EX6200-48P line cards
30 W
25.5 W
EX8200-2XS-40P line cards and EX8200-48PL line cards
30 W (ports 0 through 11)
15.4 W (remaining PoE ports)
25.5 W
12.95 W
In both class and static mode, if the power consumption of a powered device exceeds the maximum power allocated to the interface, the switch turns off power to the interface.
PoE Interface Power Priority
You can configure a PoE interface to have either a high or low power priority. The power priority determines which interfaces receive power if PoE power demands are greater than the PoE power budget. If the total power allocated for all interfaces exceeds the switch budget, PoE power to lower-priority interfaces is turned off and the power allocated to those interfaces drops to 0. Thus you should set interfaces that connect to critical powered devices, such as security cameras and emergency phones, to high priority.
Among PoE interfaces that have the same assigned priority, power priority is determined by the port number, with lower-numbered ports having higher priority.
For EX6200 and EX8200 switches, interface power priority determines the relative priority of the interfaces on a line card, not on the switch as a whole. The relative priority of interfaces residing on different line cards is determined by line card priority. For example, if line card 1 has a higher power priority than line card 2 and a power shortage occurs, power is removed from the PoE interfaces in this order:
- Low priority interfaces on line card 2
- High priority interfaces on line card 2
- Low priority interfaces on line card 1
- High priority interfaces on line card 1
